+ # Don't serialize `froms`, `dtos` and `tos` as they duplicate information.
+ # TODO serialize them if a flag for extra info is set on `serializer`.
+ end
+
+ redef init from_deserializer(v)
+ do
+ # Code generated by the serialization_phase from the compiler frontend,
+ # copied here for compatibility with nith.
+
+ super
+ v.notify_of_creation self
+
+ var poset = v.deserialize_attribute("poset", "POSet[nullable Object]")
+ if v.deserialize_attribute_missing then
+ v.errors.add new Error("Deserialization Error: attribute `{class_name}::poset` missing from JSON object")
+ else if not poset isa POSet[E] then
+ v.errors.add new AttributeTypeError(self, "poset", poset, "POSet[nullable Object]")
+ if v.keep_going == false then return
+ else
+ self.poset = poset
+ end
+
+ var element = v.deserialize_attribute("element", "nullable Object")
+ if v.deserialize_attribute_missing then
+ v.errors.add new Error("Deserialization Error: attribute `{class_name}::element` missing from JSON object")
+ else if not element isa E then
+ v.errors.add new AttributeTypeError(self, "element", element, "nullable Object")
+ if v.keep_going == false then return
+ else
+ self.element = element
+ end
+
+ var tos = v.deserialize_attribute("tos", "HashSet[nullable Object]")
+ if v.deserialize_attribute_missing then
+ else if not tos isa HashSet[E] then
+ v.errors.add new AttributeTypeError(self, "tos", tos, "HashSet[nullable Object]")
+ if v.keep_going == false then return
+ else
+ self.tos = tos
+ end
+
+ var froms = v.deserialize_attribute("froms", "HashSet[nullable Object]")
+ if v.deserialize_attribute_missing then
+ else if not froms isa HashSet[E] then
+ v.errors.add new AttributeTypeError(self, "froms", froms, "HashSet[nullable Object]")
+ if v.keep_going == false then return
+ else
+ self.froms = froms
+ end
+
+ var dtos = v.deserialize_attribute("dtos", "HashSet[nullable Object]")
+ if v.deserialize_attribute_missing then
+ else if not dtos isa HashSet[E] then
+ v.errors.add new AttributeTypeError(self, "dtos", dtos, "HashSet[nullable Object]")
+ if v.keep_going == false then return
+ else
+ self.dtos = dtos
+ end
+
+ var dfroms = v.deserialize_attribute("dfroms", "HashSet[nullable Object]")
+ if v.deserialize_attribute_missing then
+ else if not dfroms isa HashSet[E] then
+ v.errors.add new AttributeTypeError(self, "dfroms", dfroms, "HashSet[nullable Object]")
+ if v.keep_going == false then return
+ else
+ self.dfroms = dfroms
+ end
+
+ var count = v.deserialize_attribute("count", "Int")
+ if v.deserialize_attribute_missing then
+ v.errors.add new Error("Deserialization Error: attribute `{class_name}::count` missing from JSON object")
+ else if not count isa Int then
+ v.errors.add new AttributeTypeError(self, "count", count, "Int")
+ if v.keep_going == false then return
+ else
+ self.count = count
+ end
+ end
+end
+
+redef class MapRead[K, V]
+ # Return all elements of `keys` that have a value.
+ #
+ # ~~~
+ # var map = new Map[String, String]
+ # map["A"] = "a"
+ # map["B"] = "b"
+ # map["C"] = "c"
+ #
+ # assert map.filter_keys(["B"]) == ["B"]
+ # assert map.filter_keys(["A", "Z", "C"]) == ["A", "C"]
+ # assert map.filter_keys(["X", "Y", "Z"]).is_empty
+ # ~~~
+ #
+ # `has_key` is used to filter.
+ fun filter_keys(keys: Collection[nullable Object]): Array[K]
+ do
+ var res = new Array[K]
+ for e in keys do
+ if has_key(e) then res.add e
+ end
+ return res
+ end
+
+ # Search all the values in `pe.greaters`.
+ #
+ # Elements without values are ignored.
+ #
+ # Basically, values defined in all greater elements of `pe` are inherited.
+ #
+ # ~~~
+ # var pos = new POSet[String]
+ # pos.add_chain(["E", "D", "C", "B", "A"])
+ # pos.add_chain(["D", "X", "B"])
+ #
+ # var map = new HashMap[String, String]
+ # map["A"] = "a"
+ # map["C"] = "c"
+ # map["X"] = "x"
+ # map["E"] = "e"
+ #
+ # assert map.lookup_all_values(pos["B"]).has_exactly(["a"])
+ # assert map.lookup_all_values(pos["C"]).has_exactly(["a", "c"])
+ # assert map.lookup_all_values(pos["D"]).has_exactly(["a", "c", "x"])
+ # ~~~
+ fun lookup_all_values(pe: POSetElement[K]): Set[V]
+ do
+ var res = new Set[V]
+ for k in filter_keys(pe.greaters) do res.add self[k]
+ return res
+ end
+
+ # Combine the values in `pe.greaters` from the most smaller elements that have a value.
+ #
+ # Elements without values are ignored.
+ #
+ # Basically, values defined in nearest greater elements of `pe` are inherited.
+ #
+ # ~~~
+ # var pos = new POSet[String]
+ # pos.add_chain(["E", "D", "C", "B", "A"])
+ # pos.add_chain(["D", "X", "B"])
+ #
+ # var map = new HashMap[String, String]
+ # map["A"] = "a"
+ # map["C"] = "c"
+ # map["X"] = "x"
+ # map["E"] = "e"
+ #
+ # assert map.lookup_values(pos["B"]).has_exactly(["a"])
+ # assert map.lookup_values(pos["C"]).has_exactly(["c"])
+ # assert map.lookup_values(pos["D"]).has_exactly(["c", "x"])
+ # ~~~
+ fun lookup_values(pe: POSetElement[K]): Set[V]
+ do
+ var res = new Set[V]
+ for k in pe.poset.select_smallest(filter_keys(pe.greaters)) do res.add self[k]
+ return res